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13Inventory Management
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13Inventory Management Types of Inventories Raw materials & purchased parts Partially completed goods called work in progress Finished-goods inventories –(manufacturing firms) or merchandise (retail stores)
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13Inventory Management Types of Inventories (Cont’d) Replacement parts, tools, & supplies Goods-in-transit to warehouses or customers
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13Inventory Management Functions of Inventory To meet anticipated demand To smooth production requirements To decouple components of the production-distribution To protect against stock-outs
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13Inventory Management Functions of Inventory (Cont’d) To take advantage of order cycles To help hedge against price increases or to take advantage of quantity discounts To permit operations
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13Inventory Management Lead time: time interval between ordering and receiving the order Holding (carrying) costs: cost to carry an item in inventory for a length of time, usually a year Ordering costs: costs of ordering and receiving inventory Shortage costs: costs when demand exceeds supply Key Inventory Terms
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13Inventory Management ABC Classification System Classifying inventory according to some measure of importance and allocating control efforts accordingly. A A - very important B B - mod. important C C - least important Figure 13-1 Annual $ volume of items A B C High Low Few Many Number of Items
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13Inventory Management Economic order quantity model Economic production model Quantity discount model Economic Order Quantity Models
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13Inventory Management Only one product is involved Annual demand requirements known Demand is even throughout the year Lead time does not vary Each order is received in a single delivery There are no quantity discounts Assumptions of EOQ Model
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13Inventory Management The Inventory Cycle Profile of Inventory Level Over Time Quantity on hand Q Receive order Place order Receive order Place order Receive order Lead time Reorder point Usage rate Time Figure 13-2
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13Inventory Management Total Cost Annual carrying cost Annual ordering cost Total cost =+ Q 2 H D Q S TC = +
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13Inventory Management Cost Minimization Goal Order Quantity (Q) The Total-Cost Curve is U-Shaped Ordering Costs QOQO Annual Cost ( optimal order quantity) Figure 13-4
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13Inventory Management Minimum Total Cost The total cost curve reaches its minimum where the carrying and ordering costs are equal.
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13Inventory Management Economic Production Quantity
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13Inventory Management Only one item is involved Annual demand is known Usage rate is constant Usage occurs continually Production rate is constant Lead time does not vary No quantity discounts Economic Production Quantity Assumptions
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13Inventory Management Economic Production Quantity
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13Inventory Management Quantity Discounts Annual carrying cost Purchasing cost TC =+ Q 2 H D Q S + + Annual ordering cost PD +
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13Inventory Management Total Costs with PD Cost EOQ TC with PD TC without PD PD 0 Quantity Adding Purchasing cost doesn’t change EOQ Figure 13-7
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13Inventory Management Total Cost with Constant Carrying Costs
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13Inventory Management Total Cost with Constant Carrying Costs
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13Inventory Management Total Cost with Variable Carrying Costs
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13Inventory Management Total Cost with Variable Carrying Costs
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13Inventory Management When to Reorder with EOQ Ordering Reorder Point - When the quantity on hand of an item drops to this amount, the item is reordered Safety Stock - Stock that is held in excess of expected demand due to variable demand rate and/or lead time. Service Level - Probability that demand will not exceed supply during lead time. –SL=100-stockout risk
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13Inventory Management Reorder Point (ROP)
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13Inventory Management Reorder Point (ROP)
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13Inventory Management Reorder Point (ROP)
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13Inventory Management Shortage and Service Level
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13Inventory Management Orders are placed at fixed time intervals Order quantity for next interval? Suppliers might encourage fixed intervals May require only periodic checks of inventory levels Fixed-Order-Interval Model
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13Inventory Management Fixed-Order-Interval Model
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13Inventory Management Stockout Risk
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13Inventory Management Tight control of type A items Items from same supplier may yield savings in: –Ordering –Packing –Shipping costs May be practical when inventories cannot be closely monitored Fixed-Interval Benefits
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13Inventory Management Requires a larger safety stock Increases carrying cost Costs of periodic reviews Fixed-Interval Disadvantages
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13Inventory Management Single period model: model for ordering of perishables and other items with limited useful lives Shortage cost: generally the unrealized profits per unit Excess cost: difference between purchase cost and salvage value of items left over at the end of a period Single Period Model
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13Inventory Management Single Period Model C shortage = C s = revenue per unit - cost per unit C excess = C e = original cost per unit - salvage value per unit
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13Inventory Management Continuous stocking levels –Identifies optimal stocking levels –Optimal stocking level balances unit shortage and excess cost Discrete stocking levels –Service levels are discrete rather than continuous –Desired service level is equaled or exceeded Single Period Model
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13Inventory Management Too much inventory –Tends to hide problems –Easier to live with problems than to eliminate them –Costly to maintain Wise strategy –Reduce lot sizes –Reduce safety stock Operations Strategy
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